public UMCClusterTreeViewModel(UMCClusterLightMatched matchedCluster, TreeItemViewModel parent) { m_items = new ObservableCollection<TreeItemViewModel>(); m_parent = parent; m_cluster = matchedCluster; var features = new UMCCollectionTreeViewModel(matchedCluster.Cluster); features.FeatureSelected += feature_FeatureSelected; features.Name = "Features"; // Cluster level statistics var cluster = matchedCluster.Cluster; AddStatistics("Mass", cluster.MassMonoisotopic); var item = new StringTreeViewItem( cluster.Net.ToString("F3", CultureInfo.InvariantCulture), "NET"); m_items.Add(item); if (cluster.DriftTime > 0) { AddStatistics("Drift Time", cluster.DriftTime); } AddStatistics("Datasets", cluster.DatasetMemberCount); AddStatistics("Total", cluster.MemberCount); AddStatistics("Total MS/MS", cluster.MsMsCount); AddStatistics("Total Identifications", cluster.IdentifiedSpectraCount); var allIdentifications = new GenericCollectionTreeViewModel(); allIdentifications.Name = "Identifications"; // Items to display the base childen. var identifications = new PeptideCollectionTreeViewModel(cluster); identifications.Name = "Search Results"; identifications.FeatureSelected += feature_FeatureSelected; var spectra = new MsMsCollectionTreeViewModel(cluster); spectra.Name = "MS/MS"; m_spectra = spectra; spectra.SpectrumSelected += spectra_SpectrumSelected; spectra.FeatureSelected += feature_FeatureSelected; var matches = new MassTagCollectionMatchTreeViewModel(matchedCluster.ClusterMatches); matches.Name = "AMT Tags"; allIdentifications.Items.Add(identifications); allIdentifications.Items.Add(spectra); allIdentifications.Items.Add(matches); m_allIdentifications = allIdentifications; m_items.Add(features); m_items.Add(allIdentifications); }
public void AddString(string name, string value) { var x = new StringTreeViewItem(value, name); m_items.Add(x); }
public UMCClusterTreeViewModel(UMCClusterLightMatched matchedCluster, TreeItemViewModel parent) { m_items = new ObservableCollection <TreeItemViewModel>(); m_parent = parent; m_cluster = matchedCluster; var features = new UMCCollectionTreeViewModel(matchedCluster.Cluster); features.FeatureSelected += feature_FeatureSelected; features.Name = "Features"; // Cluster level statistics var cluster = matchedCluster.Cluster; AddStatistics("Mass", cluster.MassMonoisotopic); var item = new StringTreeViewItem( cluster.Net.ToString("F3", CultureInfo.InvariantCulture), "NET"); m_items.Add(item); if (cluster.DriftTime > 0) { AddStatistics("Drift Time", cluster.DriftTime); } AddStatistics("Datasets", cluster.DatasetMemberCount); AddStatistics("Total", cluster.MemberCount); AddStatistics("Total MS/MS", cluster.MsMsCount); AddStatistics("Total Identifications", cluster.IdentifiedSpectraCount); var allIdentifications = new GenericCollectionTreeViewModel(); allIdentifications.Name = "Identifications"; // Items to display the base childen. var identifications = new PeptideCollectionTreeViewModel(cluster); identifications.Name = "Search Results"; identifications.FeatureSelected += feature_FeatureSelected; var spectra = new MsMsCollectionTreeViewModel(cluster); spectra.Name = "MS/MS"; m_spectra = spectra; spectra.SpectrumSelected += spectra_SpectrumSelected; spectra.FeatureSelected += feature_FeatureSelected; var matches = new MassTagCollectionMatchTreeViewModel(matchedCluster.ClusterMatches); matches.Name = "AMT Tags"; allIdentifications.Items.Add(identifications); allIdentifications.Items.Add(spectra); allIdentifications.Items.Add(matches); m_allIdentifications = allIdentifications; m_items.Add(features); m_items.Add(allIdentifications); }